Rapid prototyping of flexible crystal models

Crystalline minerals have many interesting properties, and many of these properties have useful applications. By studying the minerals’ crystal structures, their properties and behaviors, can be better understood and appreciated. ‘Balls-and-sticks’ is the very common method used for representing...

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Main Author: Tan, Malcolm Yong Liang.
Other Authors: Georg Lothar Thimm
Format: Final Year Project
Language:English
Published: 2009
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Online Access:http://hdl.handle.net/10356/16836
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-168362023-03-04T18:36:11Z Rapid prototyping of flexible crystal models Tan, Malcolm Yong Liang. Georg Lothar Thimm School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering::Prototyping Crystalline minerals have many interesting properties, and many of these properties have useful applications. By studying the minerals’ crystal structures, their properties and behaviors, can be better understood and appreciated. ‘Balls-and-sticks’ is the very common method used for representing minerals’ crystallographic data. In this project, the crystal structures are to be made ‘flexible’ to imitate certain crystal behaviors, such as polymorphism of silica (SiO2) – one example is the transformation of alpha quartz (at room temperatures and pressures) to beta quartz (at elevated temperatures and pressures), and vice versa. In order to do this, spheres representing the supposedly ‘flexible’ atoms are replaced by spherical/ball joints to induce this flexibility. Two possible approaches exist as to fabrication. The conventional approach involves fabrication using balls-and-sticks. However, this is often too time-consuming, as well as lost of crystallographic accuracy when the structures become larger and more complex. Therefore, rapid-prototyping is chosen to fabricate these crystal structures more efficiently and accurately. In order for the crystal to be rapid-prototyped, a mineral’s crystallographic data is first obtained (as a CIF file), and then opened by a Java-based viewer Jmol. Jmol is a software which permits viewing of crystal structures in real-time 3D. Manipulation such as the displaying n numbers of unit cells to control the size of the crystal structure is possible in Jmol – and upon obtaining the desirable crystal structure (such as structure size, bond size, etc), a ‘snapshot’ of the crystal structure can be captured, and the information is exported to files. These intermediate files are read by an AutoCAD macro, programmed by the author, to replicate the crystal model in the CAD environment. Post-processing is done to ensure the CAD model is fit for fabrication, before it is exported as a stereo-lithography file (STL file) to the rapid-prototyping machine for fabrication. What will ultimately result is an accurate product: a flexible ball-and-stick representation of the crystal structure. Bachelor of Engineering (Mechanical Engineering) 2009-05-28T07:08:04Z 2009-05-28T07:08:04Z 2009 2009 Final Year Project (FYP) http://hdl.handle.net/10356/16836 en Nanyang Technological University 95 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Mechanical engineering::Prototyping
spellingShingle DRNTU::Engineering::Mechanical engineering::Prototyping
Tan, Malcolm Yong Liang.
Rapid prototyping of flexible crystal models
description Crystalline minerals have many interesting properties, and many of these properties have useful applications. By studying the minerals’ crystal structures, their properties and behaviors, can be better understood and appreciated. ‘Balls-and-sticks’ is the very common method used for representing minerals’ crystallographic data. In this project, the crystal structures are to be made ‘flexible’ to imitate certain crystal behaviors, such as polymorphism of silica (SiO2) – one example is the transformation of alpha quartz (at room temperatures and pressures) to beta quartz (at elevated temperatures and pressures), and vice versa. In order to do this, spheres representing the supposedly ‘flexible’ atoms are replaced by spherical/ball joints to induce this flexibility. Two possible approaches exist as to fabrication. The conventional approach involves fabrication using balls-and-sticks. However, this is often too time-consuming, as well as lost of crystallographic accuracy when the structures become larger and more complex. Therefore, rapid-prototyping is chosen to fabricate these crystal structures more efficiently and accurately. In order for the crystal to be rapid-prototyped, a mineral’s crystallographic data is first obtained (as a CIF file), and then opened by a Java-based viewer Jmol. Jmol is a software which permits viewing of crystal structures in real-time 3D. Manipulation such as the displaying n numbers of unit cells to control the size of the crystal structure is possible in Jmol – and upon obtaining the desirable crystal structure (such as structure size, bond size, etc), a ‘snapshot’ of the crystal structure can be captured, and the information is exported to files. These intermediate files are read by an AutoCAD macro, programmed by the author, to replicate the crystal model in the CAD environment. Post-processing is done to ensure the CAD model is fit for fabrication, before it is exported as a stereo-lithography file (STL file) to the rapid-prototyping machine for fabrication. What will ultimately result is an accurate product: a flexible ball-and-stick representation of the crystal structure.
author2 Georg Lothar Thimm
author_facet Georg Lothar Thimm
Tan, Malcolm Yong Liang.
format Final Year Project
author Tan, Malcolm Yong Liang.
author_sort Tan, Malcolm Yong Liang.
title Rapid prototyping of flexible crystal models
title_short Rapid prototyping of flexible crystal models
title_full Rapid prototyping of flexible crystal models
title_fullStr Rapid prototyping of flexible crystal models
title_full_unstemmed Rapid prototyping of flexible crystal models
title_sort rapid prototyping of flexible crystal models
publishDate 2009
url http://hdl.handle.net/10356/16836
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